<group>
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J=<a href="%pathto:imop.vl_imarraysc;">VL_IMARRAYSC</a>(A) constructs an image mosaic similar to
J=<a href="%pathto:imop.vl_imarray;">VL_IMARRAY</a>(A), but it rescales the range of each image in the
array. If A is an array of grayscale images, J will index all the
colors in the current colormap; if A is a true color image, J will
span the range [0,1].
</p><p>
If A is of an integer class, J will be of class single SINGLE class.
</p><p>
<a href="%pathto:imop.vl_imarraysc;">VL_IMARRAYSC</a>(...) displays the image J rather than returning it.
</p><p>
<a href="%pathto:imop.vl_imarraysc;">VL_IMARRAYSC</a>() accepts the options of <a href="%pathto:imop.vl_imarray;">VL_IMARRAY</a>() and:
</p><dl><dt>
CLim
<span class="defaults">[]</span></dt><dd><p>
Rescale the specified range of values rather than the actual
range of each image.
</p></dd><dt>
Uniform
<span class="defaults">[false]</span></dt><dd><p>
Rescale the range of all the images together, rather than on
an image-by-image basis.
</p></dd><dt>
CMap
<span class="defaults">[]</span></dt><dd><p>
Use the specified color map as a reference rather than the
current or default one.
</p></dd><dt>
Algorithm
</dt><dd><p>
CLim is seet to the image range [m, M], where m is the minimum
value of an image and M is the maximum. The image range CLim is
then affinely mapped to the integers from 1 to C, where C is the
number of colors in the colormap, or to the range [0,1] for true
color images. The mapping is done so that the first color is
assigned the first subinterval of length C of the range [m,M]
and so on.
</p></dd></dl><p>
See also: <a href="%pathto:imop.vl_imarray;">VL_IMARRAY</a>(), <a href="%pathto:vl_help;">VL_HELP</a>(), IMAGE().
</p></div></group>
